High-Resolution Rotational Analysis of the Lowest D–O Overtone Bands of Deuterated Hypochlorous Acid: 2ν1 and 3ν1

Using high-resolution Fourier transform spectra of monoisotopic \(\mathrm{H}_{2}{ }^{80} \mathrm{Se}\) recorded in the 1.8 and \(1.55-\mu \mathrm{m}\) regions. an extensive analysis of the \(2 \nu_{1}+\nu_{2}, \nu_{1}+\nu_{2}+\nu_{3}, 3 \nu_{1}, 2 \nu_{1}+\nu_{3}\), and \(\nu_{1}+\) \(2 v_{3}\) band

Using a Fourier transform spectrum of ozone recorded in the 2.1 mm region at a resolution of 0.008 cm 01 , it has been possible to perform the first high resolution analysis of the 3n 1 / n 2 / n 3 and 5n 3 bands of 16 O 3 . These results, together with those derived from the analysis of the n 1 / 4

A spectrum of HSiF 3 has been recorded at room temperature with a gas pressure of 20 -50 Torr in the near-infrared region. A laser photoacoustic spectrometer consisting of a longitudinal resonant cell coupled to a titanium:sapphire ring laser was employed. The 5 1 and 6 1 overtone bands of H 28 SiF

High-resolution spectrum of the HDS molecule was recorded with the Bruker Fourier spectrometer in Oulu in the regions of the n 1 and 2n 1 /n 2 / n 3 absorption bands. Fine rotational structure of the n 1 band was analyzed with the model of an isolated vibrational state, while in the analysis of the

The n 1 (symmetric stretch) and n 3 (asymmetric stretch) fundamental bands of the semistable molecule ClOCl have been recorded and analyzed. This is the first high-resolution infrared study of dichlorine monoxide. The spectrum, which occurs in the 600 to 700 cm 01 region, is very dense, and its assi